The facility will serve students, building operators, building energy auditors, and will be used to support the development of new business ventures in energy efficiency.The Consortium for Building Energy Innovation (CBEI)—formerly the Energy Efficient Buildings Hub—at Philadelphia’s Navy Yard, is a research initiative funded by the Department of Energy and led by Penn State University that seeks to reduce the energy usage of commercial buildings to 50% by 2020. KieranTimberlake, a Philadelphia-based firm located three miles from Navy Yard, was selected by Penn State to renovate a 1940’s Georgian-style brick building to be a living laboratory for advanced energy retrofit technology. Included in the brief was an addition to the building, which evolved into a new stand-alone building across the street on Lot 7R, which aptly became the name of the building. The new 7R building, literally tied to the ground with groundwater-sourced heat pumps, is also formally and tectonically organized around passive solar strategies. A number of daylighting studies drove a re-shape of the building. An initial four-story cube was introduced in Robert A.M. Stern and Associates’ masterplan for the site, but became a long linear east-west oriented low-lying building. This configuration maximizes daylighting while minimizing over-shadowing on the site, establishing a framework for campus growth. 7R is loaded with environmental features including a green roof, a gray water reuse system, integrated daylighting strategies, and geothermal wells. These environmental priorities influenced an approach to building envelope design that balances performance with overriding aesthetics and compositional goals. David Riz, a partner at KieranTimberlake, says the composition of the facade is integral to the siting of the building: “In a large number of our projects, we accentuate the orientation of our buildings with facade treatments.” Brick, chosen for its relationship to a historic Navy Yard context, is utilized as a ‘solar shade,’ opening and closing along the south facade to manage direct heat gain, while eliminating the need for mechanized shades. ‘Rips’ in the brick fabric reveal a transparent glazing system adorned with horizontal sun shade louvers. To the north, the building visually connects to adjacent League Island Park by maximizing glazing along an elevated second floor ‘tree-top’ interior walkway. Arguably the most significant feature of the building envelope is a twin-wall assembly of insulated translucent panels, seen prominently along the length of the north facade, allowing the architects to maximize the level of daylight. David Riz says the panels are notably used both performatively and compositionally, spanning 19’ tall from the plenum to the roof coping: “We wanted to create syncopation in the patterning. We were trying to get a dual read on a long linear building introducing key moments as your eye moves along the building.” The panels are incorporated into the west facade as a primary material to help manage a harsh late-afternoon sun in the large auditorium’s break out space. Riz celebrates the success of the facade in managing a difficult western orientation through diffusing harsh sunlight into a soft glow: “When you’re in the break out space, you simultaneously sense the daylight from the west, a view to the north park, and also a view through the flying brick screen to the south. That’s where it all comes together.” Riz considers the quality of daylight filtering through the building envelope to be one of the project’s greatest strengths: “There are very nice moments as you walk through the building because its so narrow where you experience a simultaneity of the south facade and the north facade: a hint of the brick screen through the classrooms, and bays of transparent panels to the other direction.” KieranTimberlake, who recently received an award for Innovative Research at ACADIA 2015, continues to monitor for thermal performance and storm water analysis. In this regard, the 7R building is a blend between high tech data monitoring, paired with low-tech passive strategies and off-the-shelf products. The project, completed within the last year, will be utilized by Penn State for various research programs.
Posts tagged with "Department of Energy":
A high-performance building prototype which shares energy with a natural-gas-powered hybrid electric vehicle.A cross-disciplinary team at Oak Ridge National Laboratory (ORNL) have designed an innovative single-room building module to demonstrate new manufacturing and building technology pathways. The research project, named Additive Manufacturing Integrated Energy (AMIE), leverages rapid innovation through additive manufacturing, commonly known as ‘3d printing,’ to connect a natural-gas-powered hybrid electric vehicle to a high-performance building designed to produce, consume, and store renewable energy. The vehicle and building were developed concurrently as part of the AMIE project. The goal of AMIE was twofold according to Dr. Roderick Jackson, Group Leader of Building Envelope Systems Research and Project Lead for the AMIE project at ORNL: “First, how do we integrate two separate strains of energy: buildings and vehicles; and secondly, how do we use additive manufacturing as a way to create a framework for rapid innovation while not becoming constrained by the resources of today?” Additive manufacturing contributed to formal expression of the building envelope structure and offered efficiencies in material usage while significantly reducing construction waste. Jackson says the design and manufacturing process became embedded into the ‘rapid innovation’ spirit of the project. “The architects at SOM worked hand in hand with the manufacturing process, sharing the building model with the 3d printers in the same way that the vehicle shares power with building. For example, within the course of less than a week, between the manufacturer, the material supplier, the 3d printers, and the architects, we were able to work together to reduce the print time by more than 40%.” In total, the AMIE project – from research, through design, manufacturing, and assembly – took 9 months. The building incorporates low-cost vacuum insulated panels into an additively manufactured shell, printed in 2’ widths in half ring profiles, assembled at Clayton Homes, the nation’s largest manufactured home builder. The vacuum insulated panels consist of Acrylonitrile butadiene styrene (ABS) with 20% carbon fiber reinforcement, a material which serves as a “starting point” for Jackson and his team: “We wanted to open up the door for people to say ‘what if?’ What if we used a non-traditional material to construct a building? I see this product as a ‘gateway.’ This might not be the final material we’ll end up using to construct buildings in the future. We’ll need to find locally available materials and utilize more cost-saving techniques. But we had to start somewhere. The ABS product will open the door for a conversation.” The project emerged out of fundamental questions concerning access to, and use of energy. Climate change, an increasing demand for renewable energy sources, and uncertainty in the balance of centralized versus distributed energy resources all impact the grid. In addition, more than 1.3 billion people worldwide have no access to an electric grid, and for an additional billion people, grid access is unreliable. AMIE will doubly function in the near future as an educational showcase to both the public who will learn of its story, and ORNL researchers who will continue to monitor how energy is generated, used, and stored. Will there be an AMIE 2.0? Jackson responds: “We don’t look at this as a one hit wonder. We really want this research to be the first stone thrown in the water that causes a ripple throughout the disciplines involved. Not only for us, but throughout the world. We want to put this out there so other smart people can look at it and brainstorm. If the end of the next project looks anything like AMIE 1.0, then we’ve missed the boat.”
This past weekend, a jury of architects, engineers, and market experts scored Team Austria’s home entry as the winner of the United States Department of Energy Solar Decathlon, a student design competition aimed at educating and encouraging thought about the affordability and efficiency of solar homes. As AN reported, the Team Austria private residential design is environmentally sensitive and easily adaptable, chosen for its overall energy efficiency, attractiveness of design, cost, and comfortable living conditions. However, of the 19 designs by collegiate teams from the United States, Canada, the Czech Republic, and Austria presented in Irvine, California, the public had a dissenting opinion about the Decathlon winner. The People’s Choice Award vote went to UrbanEden from the University of North Carolina at Charlotte; this concrete and glass-based modern structure was the majority’s favorite home entry. UrbanEden is a four-room home designed for ease of indoor to outdoor flexibility. It is envisioned as existing within the urban city of Charlotte and has been designed with materials for noise reduction as well as energy efficiency. The structure is built of geopolymer cement concrete, which the team claims is “one of the first-known uses of a geopolymer mix in a building envelope.” Inside its walls are a series of tubes circulating cool water to remove heat inside the house without a compressor or refrigerant. The entire south wall is constructed of glass windows and leads to an exterior patio that can be covered, weather permitting, by a retractable photovoltaic panel roof. The patio has a vertical garden to provide greenery, privacy, and a potential food source. With these innovative technologies, the entry won third place in the Solar Decathlon Engineering Contest. However, in aesthetics, the home also makes an impression. Light-filled rooms and the easy accessibility to an outdoors terrace provide a balance of nature within an urban environment. With the beauty and comfort of its design, the DOE believes that UrbanEden earns its People’s Choice Award. Solar Decathlon comments: “UrbanEden is a house people can imagine themselves living in. A house that could easily become a home.” All Images Courtesy DOE Solar Decathlon.
The U.S. Department of Energy's Solar Decathlon has officially moved west. The bi-annual event, in which college teams vie against each other to build top-tier solar powered homes, opened yesterday at the Orange County Great Park. After a decade in Washington D.C. the competition had overstayed its welcome on the National Mall, and was looking for a new place to get the word out about sustainability, said event founder Richard King. The Great Park beat out sites in 20 cities around the country. With its 11-acre space at the Great Park the event has significantly expanded. Not only does it include a "village" of houses from the 19 collegiate teams—including California schools SCI-Arc/Caltech, USC, UC Santa Clara, and Stanford— but it also contains an expo showing off sustainable solutions for homes, gardens, and even cars. Teams had only nine days to build their homes, so the environment was pretty tense (wouldn't it make a good reality show?). But now it's all done, and you can see the results if you're willing to trek to Irvine. The winners, according to the DOE, will "best blend affordability, consumer appeal, and design excellence with optimal energy production and maximum efficiency." They will be announced on October 12, so stay tuned.
President Obama is expected to announce Gina McCarthy (above, right) as the new head of the Environmental Protection Agency and Ernest Moniz (above, left) as the Secretary of Energy. McCarthy now serves as an assistant administrator at the EPA where she oversees regulating air pollution, including helping to double fuel-efficiency standards for cars, according to NPR. Moniz is currently a nuclear physicist at MIT, where he directs the university's Energy Initiative, according to the Washington Post. He has been a proponent of alternative energy sources, but some environmentalists are wary of his support for natural gas and "fracking." (Photo: Courtesy MIT / EPA)
The U.S. Department of Energy, sponsor of the prestigious Solar Decathlon — devised to encourage ideas for a more cost-effective, energy-efficient solar house— has announced mid way through this year's student design competition that they will be abandoning post on the National Mall, where the previous four events have been held since 2002. 20 teams totaling more than 1,000 students have been developing their site-specific entries for over a year, and the news comes as a huge disappointment, and inconvenience. Some have threatened to drop out. Others are working to reverse the decision before a new site is named. The DOE said in a release that it's working with the National Parks Service to protect the mall, where prototype green houses were to be designed and built by university students. From the Solar Decathlon:
In support of the historic effort underway to protect, improve, and restore the National Mall, the Department of Energy, in conjunction with the National Park Service, has decided to seek a new site for the U.S. Department of Energy Solar Decathlon 2011.And much to the chagrin of students, who have already substantially designed their buildings,the DOE hasn't yet named an alternative site. Students will soon be finalizing construction documents and building their houses for a fall exhibition, wherever that might be. One distraught student has created a petition to President Obama to reinstate the National Mall as this year's venue and over three thousand signatures have already been collected:
With only eight months remaining until the competition, we will face an insurmountable challenge to alter the designs, already in advanced stages, for installation in an as-yet unknown location. In addition, the considerable effort made to source materials and equipment for our solar-powered homes from local manufacturers and, in some cases, to engage the D.C. community in the afterlife of the structures may be for naught.There's also a Facebook page dedicated to keeping the Decathlon on the Mall, including email addresses for Secretary of Energy Steven Chu and Secretary of the Interior Ken Salazar. "We've been working on this project for over a year and a half," Reed Finlay, Project Manager of SCI-Arc and Caltech's entry, told AN's Sam Lubell. Their project, CHIP 2011, which includes a snug wrapping of vinyl over cellulose insulation, canted rooftop PV panels, and a sloping cantilever (previously) meant to highlight a view of the Washington Monument, has involved 60 students and over $100,000 in donations. "The Mall gives exposure and credibility to what we're doing... They don't know who they're messing with," he added. "I think they'll be surprised with the backlash."